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<blockeightsectionseven>
  <Question1>1. Signals of various power levels are applied to some circuits and the outputs are measured. The results are in the following table. Find the gain for each input.</Question1>
  <Answer1>None</Answer1>
  <Reference1>Student Workbook Page 12, Section 3</Reference1>
  
  <Question2>2. How much attenuation must be used when connecting the spectrum analyzer to jack 2A1J5? When attaching the peak power meter to 2A1J5?</Question2>
  <Answer2>None</Answer2>
  <Reference2>Student Workbook Page 12, Section 3</Reference2>
  
  <Question3>3. You receive a new power meter whose sensor has an input power range from 0.1mW minimum to 100 mW maximum for pulse measurement. Given a typical attenuator set consisting of four attenuators with values of 3 dB, 6 dB, 10 dB, and 20 dB, how much attenuation should be used to measure the RF samples at jacks 2A2J12/2A2J13? What is the minimum amount of attenuation needed to avoid damage to the sensor? How much offset will ensure an accurate reading on the power meter?(IMAGE ALSO)</Question3>
  <Answer3>None</Answer3>
  <Reference3>Student Workbook Page 12, Section 3</Reference3>
  
  <Question4>4. The 4542 power meter displays the pulse and a marker. What effect happens if the cursor is not located on the top of the peak.  Explain.</Question4>
  <Answer4>None</Answer4>
  <Reference4>Student Workbook Page 12, Section 3</Reference4>
  
  <Question5>5. The following table lists dBm values ranging from –11 dBm to +11 dBm. Use the 3 dB and 10 dB rules to calculate the power value in mW or W.</Question5>
  <Answer5>None</Answer5>
  <Reference5>Student Workbook Page 12, Section 3</Reference5>
  
</blockeightsectionseven>